特大超深基坑分段施工技术的数值模拟研究

本文针对正在建设中的润扬大桥特大深基坑的分段施工过程进行了三维有限元仿真模拟，得出了冻结壁和内衬可以承受施工期间发生的变形和拉（压）应力，没有超过允许值而不会失稳的结论。并和理想大开挖情况下，无衬和有衬时的弹性分析结果以及分别采用实体单元和壳单元模拟内衬时的弹塑性计算结果及轴对称情况下的ANSYS计算结果进行了比较，取得了较为一致的结论。     

LICOM海洋模式对南大洋环流的模拟评估

使用中国科学院大气物理研究所大气科学和地球流体力学数值模拟国家重点实验室（LASG/IAP）开发的第三代气候海洋模式（LASG/IAP Climate system Ocean Model version 3, LICOM3.0）低分辨率版本在海洋模式比较计划（Ocean Model Intercomparison Project, OMIP）试验中的模拟数据,描述了南极绕极流（Antarctic Circumpolar Current, ACC）和南大洋经向翻转环流（Meridional Overturning Circulation, MOC）在1958～2009年的平均状态及其变化,并与已有的模式模拟结果和观测结果对比以评估LICOM模式的模拟效果。通过对比已有模式模拟数据发现,LICOM3.0模式模拟的ACC和南大洋MOC在两组OMIP试验中平均状态相仿、结果在合理范围内,但OMIP1试验中海表强迫的变化趋势较OMIP2试验中的变化更大,得到的环流输送在OMIP1试验中增长趋势也更大。     

佛罗里达的内衬法修复支线管工程

本文简要介绍了佛罗里达州的迈阿密戴德郡的供水和排污部门采用内衬法修复技术连接了支线管工程的情况。     

FGOALS耦合模式两个版本的海洋热吸收与气候敏感度的关系研究

海洋在气候变暖过程中的重要性通常用海洋热吸收来衡量,热吸收的大小影响全球变暖的幅度。本文利用FGOALS-g2、FGOALS-s2（以下分别缩写为g2、s2）两个耦合模式的CO₂浓度以每年1%速率增长（1pctCO₂）试验,评估和分析海洋热吸收与气候敏感度的关系。结果表明:进入海洋净热通量（s2模式大于g2模式）会使得s2模式的海洋热吸收总体比g2模式大;更为重要的是,由于s2模式中的海洋热吸收主要集中在上层,使得耦合模式s2中的瞬态气候响应（TCR,或称气候敏感度）比g2大。当CO₂浓度加倍时,在两个耦合模式中,海洋热吸收的空间分布呈现显著性的差异,s2模式中上层热吸收明显比深层大,上层热吸收主要位于太平洋和印度洋,而g2模式中上层和深层热吸收差别较小,深层主要位于大西洋和北冰洋。进一步研究表明,海洋热吸收分布特征与两个耦合模式海洋环流变化有关。在g2模式中北大西洋经圈翻转环流（AMOC）强度强且深度大,在CO₂浓度加倍时,AMOC减弱小,这样AMOC可将热量带到海洋的深层,增加海洋深层热吸收。而在s2模式中,平均AMOC弱且浅,在CO₂浓度加倍时,AMOC减弱明显,热量不易到达深层,主要集中在海洋上层,对气候敏感度影响更快且更强。海洋环流导致热吸收及其空间差异同时影响到气候敏感度的差异。因此,探讨海洋热吸收与气候敏感度之间的关系,利于明确气候敏感度不确定性的来源。     

南海浅层经向翻转环流及相关的内部水体流动

The structure of the annual-mean shallow meridional overturning circulation(SMOC) in the South China Sea(SCS) and the related water movement are investigated,using simple ocean data assimilation(SODA) outputs.The distinct clockwise SMOC is present above 400 m in the SCS on the climatologically annual-mean scale,which consists of downwelling in the northern SCS,a southward subsurface branch supplying upwelling at around 10°N and a northward surface flow,with a strength of about 1×10~6 m~3/s.The formation mechanisms of its branches are studied separately.The zonal component of the annual-mean wind stress is predominantly westward and causes northward Ekman transport above 50 m.The annual-mean Ekman transport across 18°N is about 1.2×10~6 m~3/s.An annual-mean subduction rate is calculated by estimating the net volume flux entering the thermocline from the mixed layer in a Lagrangian framework.An annual subduction rate of about 0.66×10~6m~3/s is obtained between 17° and 20°N,of which 87% is due to vertical pumping and 13% is due to lateral induction.The subduction rate implies that the subdution contributes significantly to the downwelling branch.The pathways of traced parcels released at the base of the February mixed layer show that after subduction water moves southward to as far as 11°N within the western boundary current before returning northward.The velocity field at the base of mixed layer and a meridional velocity section in winter also confirm that the southward flow in the subsurface layer is mainly by strong western boundary currents.Significant upwelling mainly occurs off the Vietnam coast in the southern SCS.An upper bound for the annual-mean net upwelling rate between 10° and 15°N is 0.7×10~6m~3/s,of which a large portion is contributed by summer upwelling,with both the alongshore component of the southwest wind and its offshore increase causing great upwelling.     

引潮力对海洋环流模式的影响

The eight main tidal constituents have been implemented in the global ocean general circulation model with approximate 1° horizontal resolution.Compared with the observation data,the patterns of the tidal amplitudes and phases had been simulated fairly well.The responses of mean circulation,temperature and salinity are further investigated in the global sense.When implementing the tidal forcing,wind-driven circulations are reduced,especially those in coastal regions.It is also found that the upper cell transport of the Atlantic meridional overturning circulation(AMOC) reduces significantly,while its deep cell transport is slightly enhanced from 9×106m3/s to 10×106 m3/s.The changes of circulations are all related to the increase of a bottom friction and a vertical viscosity due to the tidal forcing.The temperature and salinity of the model are also significantly affected by the tidal forcing through the enhanced bottom friction,mixing and the changes in mean circulation.The largest changes occur in the coastal regions,where the water is cooled and freshened.In the open ocean,the changes are divided into three layers:cooled and freshened on the surface and below 3 000 m,and warmed and salted in the middle in the open ocean.In the upper two layers,the changes are mainly caused by the enhanced mixing,as warm and salty water sinks and cold and fresh water rises;whereas in the deep layer,the enhancement of the deep overturning circulation accounts for the cold and fresh changes in the deep ocean.     

基于微课的《测量平差基础》翻转课堂教学模式研究

《测量平差基础》是测绘专业的核心基础课程,该课程内容抽象、理论性较强、公式繁多,学生理解起来比较困难,课程难度和教学方法的不足导致学生很难学好这门课程。将基于微课的翻转课堂教学模式引入《测量平差基础》教学,可以提高学生的兴趣、减少课堂讲授时间、增加课堂互动、强化重难点知识、提高教学质量。     

基于空中课堂视频的高中地理在线翻转课堂教学的应用研究——以"工业区位与工业区"一课为例

基于疫情防控时采取在线教学的背景,本文结合空中课堂视频资源,开展高中地理在线翻转课堂的教学实践,同时运用问卷与访谈的方式了解学生在课前课后对知识的掌握程度、元认知能力以及持续使用该教学模式的意愿,以此分析在线翻转课堂的教学效果、归纳总结该教学模式开展过程中需要注意的问题.     

古气候中的沙尘变化及其气候影响

大气中的沙尘通过对太阳光的吸收和散射对地表温度产生影响,进而对大气环流和降水等也产生影响,但是在地球的不同历史时期尤其是深时地球大气中的沙尘量如何变化以及如何影响气候还有很多不清楚的地方。本文通过模式模拟对地球上4个不同时期的沙尘变化及其气候影响进行了研究,这4个时期分别是陆地植被还没有出现的前寒武时期、有植被且全球气温较高的盘古超大陆时期、大陆分布接近现代但气候较寒冷的末次盛冰期和气候较温暖的中全新世。在前寒武时期,由于陆地起沙面积大,大气中的沙尘含量可以达到现代地球的近10倍,使得全球地表温度下降也有近10 ℃。在盘古超大陆时期,由于在副热带的陆地面积比现代稍大,因此大气沙尘量也比现代稍大,对全球平均温度的影响很小。在末次盛冰期,由于寒冷干燥,沙尘量是现代的约两倍,但是它对全球有强烈的增温作用,如果没有沙尘,全球温度可能降低约2.5 ℃。在中全新世,观测显示全球沙尘量比现代少很多,模拟显示,采用现代沙尘和把沙尘全部去掉对全球平均温度的影响可以忽略,但是大西洋经向翻转流有显著变化。